// Copyright David Abrahams 2002. Permission to copy, use,
// modify, sell and distribute this software is granted provided this
// copyright notice appears in all copies. This software is provided
// "as is" without express or implied warranty, and with no claim as
// to its suitability for any purpose.
#ifndef ARG_FROM_PYTHON_DWA2002127_HPP
# define ARG_FROM_PYTHON_DWA2002127_HPP

# include <boost/python/converter/from_python.hpp>
# include <boost/python/detail/wrap_python.hpp>
# include <boost/python/detail/indirect_traits.hpp>
# include <boost/type_traits/transform_traits.hpp>
# include <boost/type_traits/cv_traits.hpp>
# include <boost/python/converter/rvalue_from_python_data.hpp>
# include <boost/mpl/if.hpp>
# include <boost/python/converter/registry.hpp>
# include <boost/python/converter/registered.hpp>
# include <boost/python/converter/registered_pointee.hpp>
# include <boost/python/detail/void_ptr.hpp>
# include <boost/python/back_reference.hpp>
# include <boost/python/detail/referent_storage.hpp>
# include <boost/python/converter/obj_mgr_arg_from_python.hpp>

namespace boost { namespace python
{
  template <class T> struct arg_from_python;
}}

// This header defines Python->C++ function argument converters,
// parametrized on the argument type.

namespace boost { namespace python { namespace converter {

//
// lvalue converters
//
//   These require that an lvalue of the type U is stored somewhere in
//   the Python object being converted.

// Used when T == U*const&
template <class T>
struct pointer_cref_arg_from_python
{
    typedef T result_type;
    
    pointer_cref_arg_from_python(PyObject*);
    T operator()(PyObject*) const;
    bool convertible() const;
    
 private: // storage for a U*
    // needed because not all compilers will let us declare U* as the
    // return type of operator() -- we return U*const& instead
    typename python::detail::referent_storage<T>::type m_result;
};

// Base class for pointer and reference converters
struct arg_lvalue_from_python_base
{
 public: // member functions
    arg_lvalue_from_python_base(void* result);
    bool convertible() const;
    
 protected: // member functions
    void*const& result() const;
    
 private: // data members
    void* m_result;
};

// Used when T == U* 
template <class T>
struct pointer_arg_from_python : arg_lvalue_from_python_base
{
    typedef T result_type;
    
    pointer_arg_from_python(PyObject*);
    T operator()(PyObject*) const;
};

// Used when T == U& and (T != V const& or T == W volatile&)
template <class T>
struct reference_arg_from_python : arg_lvalue_from_python_base
{
    typedef T result_type;
    
    reference_arg_from_python(PyObject*);
    T operator()(PyObject*) const;
};

// ===================

//
// rvalue converters
//
//   These require only that an object of type T can be created from
//   the given Python object, but not that the T object exist
//   somewhere in storage.
//

// Used when T is a plain value (non-pointer, non-reference) type or
// a (non-volatile) const reference to a plain value type.
template <class T>
struct arg_rvalue_from_python
{
    typedef typename boost::add_reference<
        T
        // We can't add_const here, or it would be impossible to pass
        // auto_ptr<U> args from Python to C++
    >::type result_type;
    
    arg_rvalue_from_python(PyObject*);
    bool convertible() const;

# if BOOST_MSVC < 1301 || _MSC_FULL_VER > 13102196
    typename arg_rvalue_from_python<T>::
# endif 
    result_type operator()(PyObject*);
    
 private:
    rvalue_from_python_data<result_type> m_data;
};


// ==================

// Converts to a (PyObject*,T) bundle, for when you need a reference
// back to the Python object
template <class T>
struct back_reference_arg_from_python
    : boost::python::arg_from_python<typename T::type>
{
    typedef T result_type;
    
    back_reference_arg_from_python(PyObject*);
    T operator()(PyObject*);
 private:
    typedef boost::python::arg_from_python<typename T::type> base;
};


// ==================

// This metafunction selects the appropriate arg_from_python converter
// type for an argument of type T.
template <class T>
struct select_arg_from_python
{
    BOOST_STATIC_CONSTANT(
        bool, obj_mgr = is_object_manager<T>::value);
    
    BOOST_STATIC_CONSTANT(
        bool, obj_mgr_ref = is_reference_to_object_manager<T>::value);
    
    BOOST_STATIC_CONSTANT(
        bool, ptr = is_pointer<T>::value);
    
    BOOST_STATIC_CONSTANT(
        bool, ptr_cref
            = boost::python::detail::is_reference_to_pointer<T>::value
            && boost::python::detail::is_reference_to_const<T>::value
            && !boost::python::detail::is_reference_to_volatile<T>::value);

    
    BOOST_STATIC_CONSTANT(
        bool, ref =
            boost::python::detail::is_reference_to_non_const<T>::value
        || boost::python::detail::is_reference_to_volatile<T>::value);

    BOOST_STATIC_CONSTANT(
        bool, back_ref =
        boost::python::is_back_reference<T>::value);

    typedef typename mpl::if_c<
        obj_mgr
        , object_manager_value_arg_from_python<T>
        , typename mpl::if_c<
            obj_mgr_ref
            , object_manager_ref_arg_from_python<T>
            , typename mpl::if_c<
                ptr
                , pointer_arg_from_python<T>
                , typename mpl::if_c<
                    ptr_cref
                    , pointer_cref_arg_from_python<T>
                    , typename mpl::if_c<
                        ref
                        , reference_arg_from_python<T>
                        , typename mpl::if_c<
                            back_ref
                            , back_reference_arg_from_python<T>
                            , arg_rvalue_from_python<T>
                          >::type
                      >::type
                  >::type
              >::type
          >::type
      >::type type;
};

// ==================

//
// implementations
//

// arg_lvalue_from_python_base
//
inline arg_lvalue_from_python_base::arg_lvalue_from_python_base(void* result)
    : m_result(result)
{
}

inline bool arg_lvalue_from_python_base::convertible() const
{
    return m_result != 0;
}

inline void*const& arg_lvalue_from_python_base::result() const
{
    return m_result;
}

// pointer_cref_arg_from_python
//
namespace detail
{
  // null_ptr_reference -- a function returning a reference to a null
  // pointer of type U. Needed so that extractors for T*const& can
  // convert Python's None.
  template <class T>
  struct null_ptr_owner
  {
      static T value;
  };
  template <class T> T null_ptr_owner<T>::value = 0;
  
  template <class U>
  inline U& null_ptr_reference(U&(*)())
  {
      return null_ptr_owner<U>::value;
  }
}

template <class T>
inline pointer_cref_arg_from_python<T>::pointer_cref_arg_from_python(PyObject* p)
{
    // T == U*const&: store a U* in the m_result storage. Nonzero
    // indicates success.  If find returns nonzero, it's a pointer to
    // a U object.
    python::detail::write_void_ptr_reference(
        m_result.bytes
        , p == Py_None ? p : converter::get_lvalue_from_python(p, registered_pointee<T>::converters)
        , (T(*)())0);
}

template <class T>
inline bool pointer_cref_arg_from_python<T>::convertible() const
{
    return python::detail::void_ptr_to_reference(m_result.bytes, (T(*)())0) != 0;
}
template <class T>
inline T pointer_cref_arg_from_python<T>::operator()(PyObject* p) const
{
    return (p == Py_None)  // None ==> 0
        ? detail::null_ptr_reference((T(*)())0)
        // Otherwise, return a U*const& to the m_result storage.
        : python::detail::void_ptr_to_reference(m_result.bytes, (T(*)())0);
}

// pointer_arg_from_python
//
template <class T>
inline pointer_arg_from_python<T>::pointer_arg_from_python(PyObject* p)
    : arg_lvalue_from_python_base(
        p == Py_None ? p : converter::get_lvalue_from_python(p, registered_pointee<T>::converters))
{
}

template <class T>
inline T pointer_arg_from_python<T>::operator()(PyObject* p) const
{
    return (p == Py_None) ? 0 : T(result());
}

// reference_arg_from_python
//
template <class T>
inline reference_arg_from_python<T>::reference_arg_from_python(PyObject* p)
    : arg_lvalue_from_python_base(converter::get_lvalue_from_python(p,registered<T>::converters))
{
}

template <class T>
inline T reference_arg_from_python<T>::operator()(PyObject*) const
{
    return python::detail::void_ptr_to_reference(result(), (T(*)())0);
}


// arg_rvalue_from_python
//
template <class T>
inline arg_rvalue_from_python<T>::arg_rvalue_from_python(PyObject* obj)
    : m_data(converter::rvalue_from_python_stage1(obj, registered<T>::converters))
{
}

template <class T>
inline bool arg_rvalue_from_python<T>::convertible() const
{
    return m_data.stage1.convertible != 0;
}

template <class T>
inline typename arg_rvalue_from_python<T>::result_type
arg_rvalue_from_python<T>::operator()(PyObject* p)
{
    if (m_data.stage1.construct != 0)
        m_data.stage1.construct(p, &m_data.stage1);
    
    return python::detail::void_ptr_to_reference(m_data.stage1.convertible, (result_type(*)())0);
}

// back_reference_arg_from_python
//
template <class T>
back_reference_arg_from_python<T>::back_reference_arg_from_python(PyObject* x)
    : base(x)
{
}

template <class T>
inline T
back_reference_arg_from_python<T>::operator()(PyObject* x)
{
    return T(x, base::operator()(x));
}

}}} // namespace boost::python::converter

#endif // ARG_FROM_PYTHON_DWA2002127_HPP
